Discussions on the flm design and mechanical properties of Y3+/PVA polymeric composite flms: enhancement of the electrical conductivity and dielectric properties

Abstract

This paper focuses on the impact of yttrium nitrate salt (Y3+ ions) on the microstructural, mechanical, optical, and dielectric characteristics of poly(vinyl alcohol) (PVA) flms. Simple solution casting technique was used to synthesize yttrium nitrate salt-doped PVA of diferent weight percent. These flms are characterized using various methods such as diferential scan ning calorimetry, X-ray difraction, stress–strain, UV–visible spectroscopy, and dielectric measurements. The thermal study reveals the reduction in the glass transition temperature Tg by a rise of Y3+ ions in the PVA matrix. The degree of crystallinity Xc and X-ray difraction results support the increase of the crystallinity of PVA due to the doping efect. The mechanical characteristics of PVA: Y3+ ions’ flms like Young’s modulus are reduced, but the percentage elongation at break is raised, by the increase of Y3+ ions content. UV–Vis spectroscopy has been used for the optical characteristics of the studied flms, demonstrating the transmittance of UV–Vis flms is decreasing with the rise of Y3 + ions content in the composites. The bandgap Eg of Y3+/PVA flms is signifcantly reduced with the addition of Y3 + ions. The changes in optical characteristics of PVA are ascribed to the interaction of Y3+ ions with the PVA matrix. Also, the dielectric constant measurement of the studied polymeric composites examined and revealed a highly attractive dielectric constant for the dielectric media. With the increase in the incident frequency, both the dielectric constant and dielectric loss of the studied flms is decreased expo nentially. At the same time, the AC electrical conductivity is improved with increasing the Y3+ ions content. Y3+/PVA flms have unique properties to be used in a diferent feld such as electronic, optoelectronic, and device fabrication.